I.I. Cuesta scite author profile

A B S T R A C TThe objective of the final small punch test (SPT) is to determine the fracture properties of materials, such as fracture toughness, when not enough material is available for the conduct of conventional fracture tests. The damage model developed by Gurson, and subsequently modified by Tvergaard and Needleman (GTN), allows for the numerical simulation of the elastic-plastic behaviour until fracture. This model is based on several constitutive material parameters that must be calibrated if the model is to be properly applied. In this paper, we develop a consistent methodology for the identification of the GTN damage parameters based on the adjustment of the load-displacement curve obtained in the SPTs. The methodology presented is applicable to simulating other different SPTs with different thicknesses and test temperatures. Also, the three-dimensional modelling developed will be useful in the future for analysing the possible anisotropy exhibited by some materials. The next step in the simulation will be to determine its validity in other stress fields with different triaxiality ratios, like the one present in CT specimens, the ultimate goal being to allow for the estimation of the material fracture toughness.Keywords damage modelling; Gurson-Tvergaard model; small punch. 0 , b 1 , b 2 , b 11 , b 22 , b 12 = quadratic model constants d = punch diameter (mm) D = diameter of the tensile test specimen (mm) e = specimen thickness (mm) E = Young's modulus (MPa) f = porosity or void volume fraction f * = modified porosity f 0 = initial void volume fraction f c = critical void volume fraction f F = void volume fraction at failure f N = void nucleation volume fraction f * u = constant failure void volume fractioṅ f = void volume fraction incremenṫ f growth = growth void volume fraction incremenṫ f nucleation = nucleation void volume fraction increment g 1 (ε n , f N ) = quadratic model K = strength coefficient m = slope Correspondence: I. I. Cuesta. N O M E N C L A T U R E b

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Analysis of different techniques for obtaining pre-cracked/notched small punch test specimens

Cuesta

Rodriquez

Belzunce

et al. 2011

Engineering Failure Analysis

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Influence of raster orientation on the determination of fracture properties of polypropylene thin components produced by additive manufacturing

Lorenzo-Bañuelos

Díaz

Cuesta

2020

Theoretical and Applied Fracture Mechanics

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I.I. Cuesta

The long-term accelerated expansion of various ladle-furnace basic slags and their soil-stabilization applications

Coupled hydrogen diffusion simulation using a heat transfer analogy

Determination of the Gurson–Tvergaard damage model parameters for simulating small punch tests

Analysis of different techniques for obtaining pre-cracked/notched small punch test specimens

Influence of raster orientation on the determination of fracture properties of polypropylene thin components produced by additive manufacturing

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